The 1X2, 1X2 Shortcat, and 1X2 Tallcat are Reprap class 3D-printers that can be built with access to only a drill-press and hand-saw. The parts for the entire system can be made with one-dimensional tools, straight cuts and common materials.
This machine is made by: mrkimrobotics.com
The 608 linear bearing system works well and is mature.
The shaft-couplers for leadscrews and axles work well.
The 1X2 vertex frame system has worked well.
The Scoop Extruder has printed continuously for many hours with no issue.
The flat belts themselves are strong, efficient and easy to construct.
Consistently countering "belt creep" with non-slipping elastic flat-belts in open-loop control as a function of speed remains an issue of study.
- The 'Droftarts method' homes X and Y between each layer to correct for creep/crawl drift.
- If someone wants to try a linear magnetic sensor on the conveyor-belt for absolute positioning, post your results here.
- It has a printable area greater than all of its parts(including the rods).
- Dual-head extruder and plotter(w/ hot and cold separation).
- Simultaneous extrusion and plotting.
- Quick-change plotter head.
- Narrow x-carriage design.
- It uses only 608 bearings.
- It uses only 5/16" bolts.
- It uses all 1-unit length rods.
- It uses all DIY belts.
- Uses all DIY drive pulleys.
- Uses all DIY couplers.
- Full conveyor-belt y-axis.
- One piece x-carriage design
- One piece extruder design
- One piece plotter design
- Adjustable conveyor belt tension with bed height.
- Conveyor-belt goes to both edges of the machine for end-to-end chaining of machines.
- Hand-crank for conveyor belt.
- A single block is capable of building all frame vertex points.
- A single extended block is used for Nema17 motor mounts, 608 bearing axle supports and pillow-blocks.
- The 5/16" holes fit both 8mm & 5/16" hardware.
- Works with variable lengths. The design is not length specific, so you can build a range of machine sizes, from full size to compact with the same pieces.
- The frame is chainable, you can build a linked multiple segment Longcat machine.
- It uses only 1"x2" wood for all parts.
- It uses a 35/77 system, where most of the parts are either 35mm or 77mm in length. The parts for the entire system can be cut to length in two fixture setup runs(with a few exceptions).
- All cuts are 1-dimensional 90 degrees.
- Adjustable tension with no pulleys or pusher blocks.
- The "scoop" extruder uses the PTFE tube itself as the "idle pulley"
- It uses the Makerbot Mk5 nozzle and hot-end tube.
- Makergear style geared stepper.
- Raysyu drive gear.
- A Nophead style heater block.
This single pivot floating head plotter arm works consistently over a wide range of surfaces. The servo actuation provides fast on-off movements. The entire plotter arm and servo can be removed or switched with another pen without taking the pen out of position. The large 5/16" holding nut uses low force and acts as a knob that can be easily spun on/off by hand. The band clamp pen holder can hold just about any pen sized tool.
Continuous Raftless Multilayer Object Larger than Longest Bar of a Reprap:
This was originally posted Feb. 20, 2011. This is a multilayer beam 313mm long, printed on a Reprap 1X2 whose largest component is a threaded rod 306mm long.
This was printed with the 1X2 stepper driven conveyor-belt y-axis in a repeating pattern of 30mm bricks.
This part has generic support for modular triangulated structures. It solves the problem of building angular structures without having to drill accurate angled holes. It uses 5/16" rods of variable lengths.
This split vertex is easy to construct with only two straight holes and one straight cut in 1" x 2" wood. This single piece is repeated to form all the vertex points and fixed rail mounts in a frame structure. Since the part can be cut in a single jig setup, the entire frame set can be cut in a few minutes.
Scoop Extruder v2.0:
The Scoop Extruder has adjustable tension and uses no pulleys or pusher blocks. It is a single block made with straight cuts.
The "scoop" extruder uses the PTFE tube itself as the "idle pulley".
There is a scoop shaped cutout in the tube that allows the drive gear to move the filament.
It uses the Makerbot Mk5 nozzle and hot-end tube.
Makergear style geared stepper.
Raysyu drive gear.
A Nophead style heater block.
The two motor mount holes are slightly over-sized from M3 to M4 to allow for the travel.
The Heaterblock pictured used a bicycle crank as source material.
It was cut with a hand hacksaw, and drilled in a drill press.
Aluminum foil was used to shim the heating resistor.
Thin-profile motor mount:
The thin-profile y-motor-block uses (2) 11mm DIY M3 teflon standoffs
DIY M3 Teflon Stadoff Spacers:
Never run out of M3 spacers in the middle of the night.
Always have the spacer that is the exact right length. Why didn't I think of this before?
Materials: PTFE tube 1/4" OD, 1/8" ID (mcmaster 5033K31)
Cut to length with Utility knife. Done!
There is an assembly instruction playlist for the 1X2 Compact on the home page in the 3D Printer section.